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Metamaterial-based injection molding for the cost-effective production of whole cuts

Author

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  • Mohammad Ghosheh

    (The Hebrew University of Jerusalem
    The Hebrew University of Jerusalem)

  • Avner Ehrlich

    (The Hebrew University of Jerusalem
    The Hebrew University of Jerusalem)

  • Amit Fischer

    (The Hebrew University of Jerusalem)

  • Laura Pasitka

    (The Hebrew University of Jerusalem)

  • Merav Cohen

    (The Hebrew University of Jerusalem
    The Hebrew University of Jerusalem
    The Hebrew University of Jerusalem)

  • Yaakov Nahmias

    (The Hebrew University of Jerusalem
    The Hebrew University of Jerusalem
    The Hebrew University of Jerusalem)

Abstract

The escalating global demand for meat products has intensified ecological concerns, underscoring the need for sustainable meat alternatives. Although current methods effectively imitate ground meat, mimicking whole cuts, which constitute 54% of the global market, remains challenging due to the lack of scalable technology. Injection molding is a massively scalable manufacturing technology developed for the polymer industry. Here, we introduce two injectable metamaterials: a thermally irreversible fat composite we named proteoleogel, and a multi-scaled meat analog produced by low-temperature extrusion. Viscoelastic screening of plant proteins identifies mung bean for its ability to stabilize complex oleogel structures, mimicking the mechanics of adipose tissue. Mechanical analysis reveals that low-temperature extrusion produces microscale isotropic fibers and mesoscale anisotropic structures mimicking muscle and fascia. These metamaterials can be injection-molded into various whole cuts, from chops to T-bones. Blinded taste tests indicate a 43% preference for our plant-based steak analog. Moreover, technical economic analysis shows injection molding is more cost-effective than 3D printing, costing $9/kg compared to $38/kg. This research represents a step in sustainable food production, offering cost-effective and scalable solutions for the entire meat market.

Suggested Citation

  • Mohammad Ghosheh & Avner Ehrlich & Amit Fischer & Laura Pasitka & Merav Cohen & Yaakov Nahmias, 2024. "Metamaterial-based injection molding for the cost-effective production of whole cuts," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-54939-y
    DOI: 10.1038/s41467-024-54939-y
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    References listed on IDEAS

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    1. Marta Kozicka & Petr Havlík & Hugo Valin & Eva Wollenberg & Andre Deppermann & David Leclère & Pekka Lauri & Rebekah Moses & Esther Boere & Stefan Frank & Chris Davis & Esther Park & Noel Gurwick, 2023. "Feeding climate and biodiversity goals with novel plant-based meat and milk alternatives," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    2. Liang Yue & Shan Wang & Verena Wulf & Itamar Willner, 2019. "Stiffness-switchable DNA-based constitutional dynamic network hydrogels for self-healing and matrix-guided controlled chemical processes," Nature Communications, Nature, vol. 10(1), pages 1-10, December.
    3. Chris Woolston, 2020. "Healthy people, healthy planet: the search for a sustainable global diet," Nature, Nature, vol. 588(7837), pages 54-56, December.
    4. Feng-Chun Yen & Jovana Glusac & Shira Levi & Anton Zernov & Limor Baruch & Maya Davidovich-Pinhas & Ayelet Fishman & Marcelle Machluf, 2023. "Cultured meat platform developed through the structuring of edible microcarrier-derived microtissues with oleogel-based fat substitute," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
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